Technical Factsheet on: XYLENES
List of Contaminants
As part of the Drinking Water and Health pages, this fact sheet is part of a larger publication:
National Primary Drinking Water Regulations
Drinking Water Standards
MCLG: 10 mg/L
MCL: 10 mg/L
HAL(child): 1 day: 40 mg/L; Longer-term: 40 mg/L
Health Effects Summary
Acute: EPA has found xylenes to potentially cause the following health effects from acute exposures at
levels above the MCL: disturbances in the central nervous system, such as changes in cognitive abilities,
balance, and coordination.
Drinking water levels which are considered "safe" for short-term exposures: For a 10-kg (22 lb.) child
consuming 1 liter of water per day: upto a 7-year exposure to 40 mg/L.
Chronic: Xylenes have the potential to cause the following health effects from long-term exposures at
levels above the MCL: damage to the central nervous system, liver and kidneys. Compared with benzene
and toluene, very much less is known of the human health hazards, particularly the chronic effects of
xylenes, either as mixed xylenes, as individual isomers or in admixture with other alkylbenzenes.
Cancer: There is inadequate evidence to state whether or not xylenes have the potential to cause cancer
from lifetime exposures in drinking water.
Usage Patterns
The commercial product mixed xylenes (a technical product generally containing 20% each of o-xylene,
p-xylene and ethylbenzene, as well as small quantities of toluene) analogously to toluene is an agent of
major chemical and occupational significance.
It is produced in very large quantities and is extensively employed in a broad spectrum of applications,
primarily as a solvent for which its use is increasing as a safe replacement for benzene, and in gasoline
as part of the BTX component (benzene-toluene-xylene); xylenes are also frequently used in the rubber
industry with other solvents such as toluene and benzene. Most consumption of xylene mixtures is to
produce the individual isomers, particularly p-xylene. As individual isomers they are extensively employed
in the synthesis of synthetic agents. For example, phthalic acid, isophthalic acid, terephthalic acid, and
diemthylterephthalate have very broad applications in the further preparation of phthalate ester
plasticizers and components of polyester fiber, film and fabricated items.
Production of xylenes has increased: from about 5 billion lbs. in 1982 to 6.84 billion lbs in 1993. In 1982 it
was estimated that industries consumed xylenes as follows: production of ortho-xylene, 15%; production
of para-xylene, 60%; miscellaneous, 14%; exports, 11%.
Release Patterns

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Major environmental releases of xylenes are due to: emissions from petroleum refining, gasoline and
diesel engines; emissions from its use as a solvent for alkyl resins, lacquers, enamels, rubber cement,
pesticide sprays and in organic synthesis; leaks and evaporation losses during the transport and storage
of gasoline and other fuels and from carburetor losses; agricultural spraying. Xylenes are a natural
products of many plants, and are a component of petroleum and coal tar.
From 1987 to 1993, according to EPA's Toxic Chemical Release Inventory, xylene releases to land and
water totalled nearly 4.8 billion lbs., of which about 81 percent was to land. These releases were primarily
from petroleum industries which produce xylenes as by-products of gasoline refining. The largest
releases occurred in Texas. The largest direct releases to water occurred in New Jersey and Georgia.
Environmental Fate
Most of the xylenes are released into the atmosphere where they may photochemically degrade by
reaction with hydroxyl radicals (half-life 1-18 hr).
The dominant removal process in water is volatilization. Xylenes are resistant to hydrolysis, since there
are no hydrolyzable functions. Xylenes are volatile compounds with relatively high Henry's Law constant
(0.22 for the ortho isomer and 0.32 for the m- and p- isomers). The half-life for evaporation from water is
3.2 hr for o-xylene and will be 2% higher for the m- and p-xylene.
Measures of the rate of evaporation of xylenes from a 1:1000 jet fuel:water mixture found that this rate
averaged approximately 0.6 times the oxygen reaeration rate. Combining this ratio with oxygen reaeration
rates for typical bodies of water, one estimates that the half-life for evaporation of xylenes from a typical
river or pond is 29 and 144 hr, respectively.
Xylenes are moderately mobile in soil and may leach into groundwater where they are known to persist
for several years, despite some evidence that they biodegrade in both soil and groundwater. This
evidence includes standard biodegradability tests using various inocula including sewage, activated
sludge and sea water, where mixtures are completely degraded in 8 days in groundwater with an
acclimation period of 3-4 days.
Xylenes have low to moderate adsorption to soil based on the KOC of o-xylene(48-68) and similar
chemicals. Xylenes have been observed to pass through soil at a dune-infiltration site on the Rhine River
and to leach into groundwater under a rapid infiltration site.
Bioconcentration is not expected to be significant. Based on the log octanol/water partition coefficient of
3.12-3.20 for the individual isomers and using a regression relation, the log BCF for fish is calculated to
be 2.14-2.20. The log BCF for eels is 1.3.
The primary source of exposure is from air, but, xylenes are a low level contaminant of both ground and
surface public water supplies.
Chemical/Physical Properties
CAS Number: 1330-20-7
Color/ Form/Odor: Clear liquid with a sweet odor; The commercial product "mixed xylenes" generally
contains approximately 40% m-xylene and 20% each of o-xylene, p-xylene, and ethylbenzene, as well as
small quantities of toluene
M.P.: N/AB.P.: 137-140 C

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Vapor Pressure: N/A
Octanol/Water Partition (Kow): Log Kow = 3.12-3.20
Density/Spec. Grav.: 0.864 at 20 C
Solubility: N/A; Insoluble in water
Henry's Law Coefficient: 0.22 to 0.32 atm-cu m/mole;
Odor/Taste Thresholds: Odor threshold in air is 5x10-5 mg/L
Soil sorption coefficient: Koc = 48 -68; high to moderate mobility in soil
Bioconcentration Factor: Log BCF=2.14 in fish (calc.); not expected to bioconcentrate in aquatic
organisms.
Trade Names/Synonyms: Dimethyl benzene, Xylol, Methyltoluene, Violet 3
Other Regulatory Information
Monitoring:
-	For Ground/Surface Water Sources:
Initial Frequency- 4 quarterly samples every 3 years
Repeat Frequency- Annually after 1 year of no detection
-	Triggers - Return to Initial Freq. if detect at > 0.0005 mg/L
Analysis
Reference Source	Method Numbers
EPA 600/4-88-039	502.2; 524.2
Treatment/Best Available Technologies: Granular Activated Charcoal and Packed Tower Aeration
Toxic Release Inventory - Releases to Water and Land, 1987 to 1993 (in pounds):
TOTALS (in pounds)
Top Ten States*
Water
875,943
Land
3,897,738
TX
NJ
IL
IN
AL
CA
30,853
294,437
36
0
34,361
0
2,099,734
280,759
206,990
145,079
59,022
91,500
86,774
15,000
33,000
52,360
Ml
0
GA
VA
WA
68,310
50,100
27,860
Major Industries*
Petroleum refining
131,817
2,678,958

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Metal barrels, drums
Textile finishing, misc.
Misc. Industrial chems.
Extruded Aluminum prod.
Furniture, fixtures
Cotton fabric finishing
Wood office furniture
Pharmaceuticals
Paper mills
5
68,310
0
278,454
95,706
1,265
0
52,285
52,480
289,542
0
69,696
138,798
91,500
15,000
67,677
3,100
2,122
* Water/Land totals only include facilities with releases greater than a certain amount - usually 1000 to
10,000 lbs.
For Additional Information
EPA can provide further regulatory or other general information:
EPA Safe Drinking Water Hotline - 800/426-4791
Other sources of toxicological and environmental fate data include:
Toxic Substance Control Act Information Line - 202/554-1404
Toxics Release Inventory, National Library of Medicine - 301/496-6531
Agency for Toxic Substances and Disease Registry - 404/639-6000

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